Flat Rotation Curves found in Merging Dusty Starbursts at z=2.3 through Tilted-Ring Modeling

Abstract

The brightest 500\,μm source in the XMM field, HXMM01, is a rare merger of luminous starburst galaxies at z=2.3 with a dust-obscured star-formation rate of 2,000\,M\, yr-1. Here we present high-resolution spectroscopic observations of HXMM01 with the Atacama Large Millimeter/submillimeter Array (ALMA). We detect line emission from CO\, J=76, [C I]\,3P23P1, and p- H2O\,211202 and continuum emission at 230\,GHz. At a spatial resolution of 0.2" and a spectral resolution of 40\, km\,s-1, the source is resolved into three distinct components, which are spatially and dynamically associated within a projected radius of 20\,kpc and a radial velocity range of 2,000\, km\,s-1. For two major components, our Bayesian-based tilted-ring modeling of the ALMA spectral cubes shows almost flat rotation curves peaking at 500\, km\,s-1 at galactocentric distances between 2 and 5\,kpc. Each of them has a dynamical mass of 1011\,M. The combination of the dynamical masses and the archival CO\, J=10 data places strong upper limits on the CO2 conversion factor of α CO1.4-2.0\,M\, (K\,km\,s-1\,pc2)-1. These limits are significantly below the Galactic inner disk α CO value of 4.3\,M\, (K\,km\,s-1\,pc2)-1 but are consistent with those of local starbursts. Therefore, the previously estimated short gas depletion timescale of 200\,Myr remains unchanged.